Wave guide transmitting antenna



May 27, 1958 Filed Dec. 19, 1952 P. A. KENNEBECK 2,836,823

WAVE GUIDE TRANSMITTING ANTENNA 3 Sheets-Sheet 1 Jig. z.

P. A. Kennebeck di g; 2 a} W May 27, 1958 Filed Dec. 19, 1952 1 A. KENNEBECK WAVE GUIDE TRANSMITTING ANTENNA 3 Sheets-Sheet 2 a 66 is i 35 ac IN VEN TOR.

y 195 P. A. KENNEBECK 2,836,823

- WAVE GUIDE TRANSMITTING ANTENNA Filed Dec. 19, 1952 3 Sheets-Sheet 3 a 88 i I 15 1 5b as i I i i l E I 86 Q9 Q4 m2 92 Y x (a v W G 94 qo l IN V EN 0R.

Fig. 6. V I R Kenna eck United States Patent WAVE GUIDE TRANMITTEJG ANTENNA Paul A. Kennebeck, Grand Prairie, Tex.

Application December 19, 1952, Serial No. 326,884 7 13 Claims. (Cl. 343--782) This invention relates to the transmission of radio, television, and other electrically actuated signal communication and the like, and in particular a transmitting .antenna system of high gain, and that will transmit a pattern of wave fronts with good phase relation between them whereby the resultant signals received by a receiving apparatus will be stronger, with higher fidelity, and will be less subject to fading than signals of conventional transmitting apparatus.

.wave guides whereby signals being emitted therefrom follow a narrow channel and consequently, the signals received are stronger and a gain in signal transmission is accomplished.

Radio and television signals that actuate or energize most receiving antennas are not the direct linear wave fronts that are propagated from a transmitting antenna. They are, however, secondary wave trains that are generated by the originally propagated wave fronts from the transmitting antenna.

The stronger the original linear polarized wave fronts are the stronger the secondary wave trains that are generated in several directions will be. Thus a stronger signal from secondary wave trains will be received with higher fidelity and at greater distances than heretofore if the original linear polarized wave fronts are transmitted in multiple array and with greater antenna gain than heretofore.

With this thought in mind this invention contemplates a housing having an open front with a radiating element positioned in and insulated from the housing and with the radiating element connected by a conductor through supporting means of the housing to conventional transmitting apparatus of a station.

It is an object of this invention, therefore, to provide a device for transmitting electrical signals in polarized array with phase relation between transmitting or radiating elements in a preselected direction and in a comparatively restricted pattern in such a manner that the signals are transmitted in beams to radio relay receiving apparatus or television relay system remotely disposed from the source of origin of the signals and in a more efiicient manner than has been possible heretofore.

Another object of the invention is to provide an electrical signal transmitting device having a radiating element housed within wave guides wherein a plurality of said devices are adapted to be positioned in vertically disposed relation on a supporting element and the spacing 2,836,823 Patented May 27, 1958 between the devices may be such that efiicient phase relationship is provided between the devices for a transmission pattern of polarized wave fronts for transmission of signals of modulated wave forms from such devices to a remotely disposed signal receivingapparatus or relay station, whereby the transmitted signals are concentrated in several polarized wave fronts in a comparatively narrow channel in a fixed direction and wherein a high antenna gain is obtained.

In a radio or television transmitter where signals are transmitted at frequencies of from one to ten thousand megacycles or higher, the spaced apart distances between wave impulses is comparatively small, and yet a complete battery of transmitting elements occupies an appreciable amount of space. Owing to the fact that space is often valuable and sometimes not available the improved transmitter of this invention includes a battery of radiating elements the impulses from which are beamed or channeled in a selected direction and in such a manner that the transmitting elements thereof occupy comparatively little space whereby it is possible to use a comparatively large number of channels of communication and also to reduce the cost of the installations, particularly when the transmitter is used in conjunction with the Narrow Beam Receiving Antenna of my prior Patent No. 2,615,120.

Another object of the invention is to provide improved transmitting apparatus for local television broadcasting antenna systems with a directional field of any selected part of a 360 azimuth depending upon the broadcasting pattern desired, and whereby the radiated wave fronts transmitted are restricted to narrow wave channels and concentrated to cause stronger following wave trains for television reception at greater distances than heretofore possible.

A further object of this invention is to provide a transmitter that is particularly adapted for use in connection with the mechanism disclosed in my above-noted prior patent.

In accordance with the present practice in radio relay transmitting systems the signal is caused to lose strength within the wave guide and further loss results from the means used to focus the radiation whether the focusing means he a reflector or a metallic lens apparatus.

The conventional television radiating elements used on local broadcasting antenna towers are disposed in various positions with respect to vertically disposed supporting poles, masts or towers, and the radiating elements usually have metallic perimeters. of various design, such as square, loop, cloverle'af and the like whereby electrical impulses emitted from radiating elements spread outwardly from the elements in all directions. As an example, the inner face of the perimeter radiates impulses across the center of the perimeter toward the opposite side thereby resulting in great waste of signal strength.

The most important object of this system is, therefore, to provide a transmitting antenna system of high gain, and that will transmit a pattern of wave fronts in good phase relation between them whereby the resultant signals received *at a receiving apparatus will be strong, with high fidelity and in which their tendency to fading will be reduced. 7

With these and other objects and advantages in view the invention embodies vertically spaced parallel horizontally disposed upper and lower plates, with radiating elements positioned between the plates and insulated therefrom, and with the radiating elements connected to a conventional transmitting apparatus in a station by coaxial cables or other conductors.

' Other features and advantages of the invention will sultant.

appear from the following description taken in connection with the drawings, wherein:

Figure 1 is a front elevational view of a transmission s a 7 2,836,823 f 1 tower showing a plurality of vertically spacedrradiating elements in open front housings thereon and with parts of the tower structure broken away;

Figure '2 is a side elevational view of the tower shown in Figure '1 .withthe housing of one of the radiating elements broken away and shown in, section, and also with parts of the tower structure broken away.

Figure 3 is a longitudinal section through one'of the transmitting devices taken on line 33 of Figure 4, showing ahousing'with, a radiating element therein and insulated therefrom. e t 7 V V t Figure 4 is 'a sectional plan through one of the transmitters showing the connection of a coaxial cable to the radiating element of the transmitter, said section take n on line 44 of Figure 1. p s

Figure 5 is an elevational view illustrating a modification wherein a circular radiating element is positioned .between and insulated from spaced discs, and showing two ofsaid transmitters on a pole. or mast, one ofsaid transmitters being broken away and shown in section. V Figure 6. is a. sectional plan taken on line 6--6 of Figure 5 also showing the modified form of the transmitter.

Referring now to the drawings wherein like reference gain polarized transmitting antenna of this invention includes a radiating element 10 position in a lining of insulating material having a lower section 12, an upper section'14, a rear wall 16,: end walls 18 and 20, and flanges 22 and 24 extended inwardly at the front from the end walls and providing an open area or mouth 26, and the lining with the radiating element therein is positioned in a housing having a base 28, a cover 30, a rear wall 32, .and end walls 34 and 36. t i t p The housing is provided with an open front 38 that is aligned with the open area or mouth 26 of the insulation around the radiating element 10. These units are supported in vertically spaced relation in a mast or frame, 'such as the structure shown in Figures 1 and 2 wherein thetunits' are secured 'by gusset plates 40 to posts '42,,and

characters denote corresponding parts, the improved high a Patent No. 2,615,126; t v I i t V ,7

apparatus used by'most the posts are held laterally by braces-44 or by other suitable means; The frame or tower maybe installed on the roof of a building or positioned on a suitable founda- 1 tion, and the individual units may be vertically spaced in 7 the tower or supporting structure to provide the most efficient phase relations between the transmitting ele-' ments.

The radiating element'lfl is illustrated as being of a rectangular'shape, and it will be understood thatethis element is formed of a size and shape, and also of material such as copper, iron, or alloys or other similar conducting metals, to provide; the most efficient propagation of wave fronts, the material having the proper electrical As shown in Figures 3 and 4 the radiating element 10 abuts the side edges or flanges 22 and 24 of the mouth,

26, and does not extend into the mouth. The flanges 22 'and 24 are provided to reduce an undesirable phenomenon known as *end effect, and it will be understood that these flanges could be omitted and still have'a fairre- The radiating elements 10 are in electrical communication in combination with which the devices of this inven tion are used by means of conductors and preferably said conductors are the coaxial cables the terminal ends 7 62 of which are secured by. couplings 64' to threaded nipples 66 which extend from the rear wall 32 of the housing. Thenipples are lined with insulating sleeves 68 and the cables with insulating blocks 70 through which properties of resistance, conductivity, reactance and capac- W A ity to conform to the wave length or frequency being transmitted.

7 ,tion with conventional transmitting apparatus of a staa conductor wire 72 extends, asshown in Figure 4. The conductor wire 72 extends through the rear wall 16 of the insulating lining of the housing and the end thereof is secured to the radiating element 10 of each of the units.

mitter is carried'through a cable, such as the cable 60, to the radiating element 10, and that the frequencyxof the repetitious signals is of the order of 4000 megacycles, the signal or electrical impulse is broadcast in a direction 'complemental to the longitudinal axis of the housing whereby said signals are emitted in a comparatively narrow channel through the mouth of thewave or signal guide.

A first wave is emitted through saidmouth and is' followed by succeeding waves, the spacing or distance between the waves being in accordance with the frequency used. 'As the signal impulses are confined to a narrow channel instead of being disbursed inall direc-v tions, or disturbed by the focusing means, as in the prior practice, they are, therefore, stronger when received "by.

a remotely disposed relay station or other receiving apparatus' V With a plurality of units similar to the above-noted unit and operating in the same manner,-positioned'below said unit, and with said units operating as a battery; such as with three or more units, a polarized beamed-signal is communicated'to a'receiverat a remotely situated point 7 with proportionately improvedreceptionfparticularly in instances where thereceiver is constructed in accordance of "my prior 7 with the Narrow Beam Receiving Antenna The horn or funnel-shaped 7 conventional transmitting stations at present is provided with a square or rectangular-shaped mouth which'is approximately ten or twelve feet square, and the walls converge toward a wave guide which :is connectedthereto. The mouth of such a device'is provided with, what is known as; a metallic focusing lens, whereby the waves emitted therethrough are channeled ina beam, the cross sectional area of which is substantially equivalent to the size of the mouth, whereas the concentrated anddirected I 'channelof the transmitter of this invention'is comparatively small and has a higher antenna gain than the horn or funnel-shaped devices. r r

A greater number of batteries of'the transmitters of this invention may, therefore, be installed in agiven area than is possible with the horn or funnel-shaped devices and radio, television, telegraph, or telephone signals ma 'be transmitted at a comparatively low cost. 7

In the design illustrated in Figures 5 and :6 a cylindrical radiating element with a centrally positioned opening 82 therein is positioned in a spool having a core 84 with annular flanges 86 and 88 and the spool which 55 V is formed of insulating material, is positioned-between wave guides or discs 90 and'92, the discs being conshown in Figure 5. p a The coaxial cables are brought through openings in the mast 96, sleeves 94 of the said discs or wave guides and cores'84 of the insulating spools to the meningeaments 80 to which they are connected. This unit is particularly adapted for local broadcasting service.' i

The unit illustrated in Figures 5 and 6, in lieu of emitting channel signals, as described in relation tothetunit v shown in Figures 1 through 4, emits signals in aho'rizontal direction and in partor in'all directions, such $7 360 'or'in a circle, or an azimuth of 360 or less, depending In operation and assuming that a signal from a transneeted toa transmission line, and a housing including 7 parallel plates and sides providing a directional wave guide and in which the radiating element and insulation are positioned. 7 7

References Cited'in the file of this patent UNITED STATES PATENTS,

2,142,138 Llewellyn Ian. 3, 1939 8 Barrow Sept. 9,' 1941 Buschbeek et al. Feb. 16, 1943 Wheeler 2 Aug. 12, 1947 7 Brown May 18,1948 Litchford' Aug. 28, 1951 Wilkes Jan. 4, 1955 FOREIGN PATENTS 7 Germany Feb.,14, 1952 

